|Publication number||US7089042 B2|
|Application number||US 10/753,077|
|Publication date||Aug 8, 2006|
|Filing date||Jan 8, 2004|
|Priority date||Jan 8, 2004|
|Also published as||US20050153748|
|Publication number||10753077, 753077, US 7089042 B2, US 7089042B2, US-B2-7089042, US7089042 B2, US7089042B2|
|Inventors||Martin Reed Bodley|
|Original Assignee||Fellowes, Inc.|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (24), Referenced by (5), Classifications (23), Legal Events (6)|
|External Links: USPTO, USPTO Assignment, Espacenet|
The present invention relate to a headset having an adjustable microphone boom wherein gain applied to the microphone signal is varied based on the position of the boom
Headsets with extendible and retractable booms are known in the art. Typically, these headsets use rather sophisticated processing to filter out background noise. This processing is relatively expensive and consumes power, which is an issue since this power is typically drawn from a battery in the headset or in a communication device to which the headset is connected. The present invention endeavors to provide a more simplified approach to dealing with background noise issues.
One aspect of the present invention provides a headset comprising a main body, a speaker carried by the main body, a microphone boom carried by the main body and having a distal end portion, and a microphone carried on the distal end portion of the microphone boom. The main body has an attachment structure constructed to attach the headset in an operative position to the head of a user. The speaker is positionable adjacent a user's ear when the headset is attached in the operative position, and operable to output audible noise based on a speaker input signal transmitted to the speaker. The microphone is operable to receive audible noise and transmit a microphone output signal based on the received audible noise.
The microphone boom is movable between a retracted position and an extended position. The distal end portion is positioned further forwardly towards the mouth of the user when the headset is attracted in the operative position so as to be closer to the user's mouth than in the retracted position. Circuitry carried by the main body is connected to the speaker and microphone. The circuitry is operable to transmit and receive signals from a communications device, to transmit the speaker input signal to the speaker, and to receive the microphone output signal from the microphone to thereby establish communication between both the speaker and the microphone and the communications device. The headset also comprises at least one sensor coupled to the circuitry for sensing a position of the microphone boom. The circuitry is further operable to apply a gain to the microphone output signal, the gain being varied based on the position of the microphone boom as sensed by the at least one sensor such that the gain is greater when the microphone boom is in the retracted position thereof than when the microphone boom is in the extended position thereof.
Another aspect of the invention provides a method for reducing background noise in a microphone output signal in a headset. The headset comprises a main body; a microphone boom carried by the main body and having a distal end portion; and a microphone carried on the distal end portion of the microphone boom. The microphone is operable to receive audible noise and transmit a microphone output signal based on the received audible noise. The microphone boom is movable between a retracted position and an extended position. The distal end portion is positioned further forwardly towards the mouth of the user when the headset is attached to the user's head in the operative position so as to be closer to the user's mouth in the extended position than in the retracted position.
The method comprising:
sensing a position of the microphone boom; and
applying a gain to the microphone output signal, the gain being varied based on the sensed position of the microphone boom such that the gain is greater when the microphone boom is in the retracted position thereof than when the microphone boom is in the extended position thereof.
Other objects, features, and advantages of the present application will become apparent from the following detailed description, the accompanying drawings, and the appended claims.
The Figures illustrate one example of a headset, generally indicated at 10, constructed in accordance with the present invention. The illustrated headset 10 is of the wireless type that communicates without the use of a wired connection to a communication device, such as a wireless telephone, PDA or any other device capable of being used for communicating data or voice signals. Such a wireless connection may be accomplished using the BLUETOOTH™ protocol, or any other suitable protocol. Of course, the present invention could be applied to traditional wired headsets that connect to a communication device using a pair of wires and a jack that plugs into a corresponding socket on a communications device. The illustrated headset is only an example and its construction should not be considered limiting in any way.
The headset 10 comprises a main body 12, a speaker 14 carried by the main body 12, a microphone boom 16 carried by the main body 12 and having a distal end portion 18, and a microphone 20 carried on the distal end portion 18 of the microphone boom 16.
The illustrated main body 12 is a molded plastic shell formed of halves coupled together and houses internal circuitry that provides the operative functions of the headset 10, which will be discussed below. The illustrated construction is not intended to be limiting and the main body 12 may have and shape, construction or configuration.
The main body 12 has an attachment structure 22 constructed to attach the headset 10 in an operative position to the head of a user. The term “operative position” means the position in which the headset 10 is designed to be worn by the user during normal use. This attachment structure 22 may be in the form of an earhook having a general C-shape as shown in the drawings, or may be any other suitable structure for attaching the headset 10 in an operative position to the user's head. For example, the attachment structure 22 may be attached to the user's head by a resilient C-shaped member that fits laterally over the user's head.
In the illustrated embodiment, the earhook has an elongated portion 24 bent into the general C-shape and is designed to fit between the pinna of a wearer's ear and his/her head. A proximal end portion 26 of the elongated portion 24 is connected, either integrally or by some attachment means, such as an adhesive, heat staking, ultrasonic welding, or a snap-fit, to an upper front portion of the main body 12. A distal end portion 28 carries a speaker housing 30 in which the speaker 14 (see
The speaker housing 30 is rotatably mounted to the distal end portion 28 of the elongated portion 24, and enables the speaker housing to be oriented between a use position for receipt in a wearer's right ear (shown in
As is well known in the art, the speaker 14 is operable to output audible noise based on a speaker input signal transmitted to the speaker 14. This speaker input signal is delivered to the speaker 14 from the circuitry 48 that operates the headset 10 and receives an input signal from the communications device to which it is communicated. The speaker 14 may be a transducer that converts this electrical signal to generate an audible noise that can be heard by the wearer. The speaker 14 may have any construction and the invention is not intended to be limited to any particular type.
The microphone boom 16 is movable between (1) a retracted position wherein, when the headset 10 is attracted in the operative position, the distal end portion 16 is positioned forwardly towards a mouth of the user, and (2) an extended position wherein, when the headset is attached in the operative position, the distal end portion 16 is positioned further forwardly towards the mouth of the user so as to be closer to the user's mouth than in the retracted position. The retracted position is shown in solid lines in
In the illustrated embodiment, the main body 12 has a forwardly projecting portion 36 with a generally tubular configuration and defines a forwardly facing boom receiving opening 38. A proximal end portion 40 of said microphone boom 16 is slidably mounted within the boom receiving opening 38 for movement between the retracted and extended positions. Specifically, in the retracted position, the illustrated boom 16 is slid back through the boom receiving opening 16 to be almost entirely received within the tubular projection 36, and in the extended position, the boom 16 is extended forwardly so that most of its length is projecting forwardly from the opening 38. The proximal end portion 40 of the boom 16 includes a leaf spring 42 mounted thereto by any suitable method, such as by in-place molding, adhesive, or otherwise. The leaf spring 42 has a free end that engages a retracted position detent structure in the form of a ledge 44 at the upper end of the tubular projection 36 in a detent-like manner to releasably resist movement of the boom 16 from its retracted position. Likewise, the leaf spring's free end engages an extended position detent structure in the form of a groove 46 located forwardly in the projection 36 to releasably resist movement of the boom 16 forwardly from its extended position. The ledge 44 and the groove 46 in the illustrated embodiment are provided on a track 50 (see
The microphone 20 is operable to receive audible noise, such as speech emanating from the wearer's mouth and possibly some background noise, and transmit a microphone output signal based on the received audible noise. This microphone output signal is transmitted to the circuitry 48 in the main body 12 that operates the headset 10 and delivers an output signal to the communications device to which it is communicated. The microphone 20 may be a transducer that converts this audible noise to generate an electrical signal that can be processed by the circuitry. The microphone 20 may have any construction and the invention is not intended to be limited to any particular type.
An electrical connection between the microphone 20, the speaker 14, and the circuitry 48 may be established through conductive wiring extended through the elongated position 24 and the microphone boom 16. The passages for accommodating such wiring are not specifically shown, but are readily understood. Any other suitable arrangement also may be used.
The circuitry carried by the main body is shown schematically at 48 in
The headset 10 includes least one sensor for sensing a position of the microphone boom 16. The circuitry 48 is further operable to apply a gain to the microphone output signal to create a modified microphone output signal for transmission to the communications device. As will be discussed below, this gain is varied based on the position of the microphone boom 16 as sensed by the at least one sensor such that the gain is greater when the microphone boom 16 is in the retracted position thereof than when the microphone boom 16 is in the extended position thereof.
By having a reduced gain when the boom 16 is in the extended position, the invention avoids the need for more complex and more expensive power consuming processing hardware/software for filtering background noise. Specifically, in the retracted position, because the microphone 20 is further away from the wearer's mouth, a higher gain is used to modify the microphone output signal so that the wearer's speech component of the signal is at a desired level. However, when the boom is in the extended position, the microphone 20 is closer to the wearer's mouth and the gain applied to the microphone output signal can be reduced to maintain the speech component at that desired level (assuming the user is speaking at a constant level). This reduction in gain will advantageously reduce the amount of background noise picked up by the microphone 20 and transmitted in the microphone output signal. This is because the movement of microphone boom 16 to the extended position increases the proximity of the microphone 20 to the wearer's mouth by an amount whereby less gain can be used, but does not substantially change the proximity of the microphone 20 relative to most background noise sources. Thus, reducing the gain when the boom 16 can effectively lower the amplitude or level of the background noise component in the microphone output signal without significantly affecting the speech component of the microphone output signal. Preferably, but not necessarily, the gains are selected such that the level of the user's speech component is at essentially the same level in both the extended and retracted positions of the boom 16 for a given level of wearer speech.
In the illustrated embodiment, the extended position of the boom 16 is approximately 1.5 inches forward of the retracted position of the boom 16 and the gain applied to the microphone output signal at the retracted position is approximately 6 dB greater than the gain applied at the extended position. However, any variation on these specific numbers may be practiced and they will vary based on such factors as the configuration and positioning of the headset, the type of microphone used, etc. Also, it should be understood that the term gain does not actually mean that the signal must be increased. For example, the gain in the extended position could be unity gain, which simply means that no gain is applied at all, (i.e., a gain of 1.0). Likewise, the gain in the extended position could be less than one so that the signal strength is decreased below its output level.
These terminals 52, 54 are provided on the ledge 44 and are contacted by the metallic leaf spring 42 of the boom 16 when the boom 16 is in the retracted position. By this contact, the leaf spring 42 bridges the terminals 52, 54 so that a current can flow from one to the other. The circuitry 48 applies a potential to the terminals 52, 54 so that, when the leaf spring 42 contacts the terminals 52, 54, the switch is in a closed state and current can flow therethrough. This indicates to the circuitry that the boom 16 is in the retracted position, and the circuitry 48 will responsively apply the higher gain to the microphone output signal corresponding to the boom's retracted position as discussed above. When the boom 16 is moved out of the retracted position, the leaf spring 42 will be out of contact with the terminals, thus establishing an open state for the switch with no current flowing therethrough. In this single switch embodiment, the circuitry 48 will treat this open state as indicating that the boom 16 has moved to the extended position, and will responsively apply the lower gain to the microphone output signal corresponding to the boom's extended position as discussed above.
Alternatively, there could be provided a metallic structure that is biased into contact with the terminals 52, 54 when the boom 16 is out of the retracted position, and is moved out of contact with the terminals 52, 54 when the boom 16 is moved into the retracted position. Thus, the open and closed states would be reversed relative to indicating when the boom 16 is in the retracted position. Therefore, this switch may be more broadly described as switching between a first state and a second state. This same modification could be applied to the other switches discussed below.
When the boom 16 is between the extended and retracted positions and both switches are both in their open state, the circuitry 48 may default to using the lower gain corresponding to the extended position, or the higher gain corresponding to the retracted position, or may use a gain that is intermediate those higher or lower levels. Preferably, the detent action provided by the leaf spring 42 will provide tactile or audible feedback (e.g., clicking) indicating to the user that he/she has extended or retracted the boom 16 to the appropriate position to minimize instances where the boom 16 is left between these positions.
Alternatively, one or more additional switches may be included.
The illustrated sensors for sensing the position of the boom 16 are illustrative only and are not intended to be limiting. Any other suitable sensor(s) may be used. For example, proximity sensors with magnetic reed switches that detect the proximity of a metal structure on the boom 16 may be used. Likewise, contact switches that are moved between states as the boom 16 slides over them may be used. Also, a potentiometer or other sensor that continuously senses the position of the boom 16, as opposed to sensing distinct boom positions, may be used.
In one illustrative embodiment, the switches described can be connected to general purpose input/output pins of a microprocessor contained within the circuitry 48. The microprocessor can use a relatively simply algorithm to monitor the state of the switches and drive a standard gain circuit accordingly to apply the appropriate gain to the microphone output signal. Alternatively, the gain circuit could have a series of resistors that are connected to the switches such that as the switches change states, the resistors can be coupled to or decoupled from the gain circuit to change the overall resistance of the gain circuit, thereby changing the gain it applies to the microphone signal.
Preferably, in systems such as one that operates on the BLUETOOTH protocol where the analog microphone output signal is converted from analog to digital by a CODEC, the gain would be applied to the microphone output signal prior to being transmitted to the CODEC. However, the system could be modified to apply a gain to the modified digital signal corresponding to the microphone output signal, instead of to the analog signal. Generally, the terminology of applying a gain to the microphone output signal does not necessarily mean that the gain must be applied directly to the signal the emanates directly from the microphone, and instead the gain may be applied prior to transmission to the communications device to any derivative of that signal, such as may be created by processing, filtering, A/D conversion, or other modification.
The foregoing illustrated embodiment has been provided solely to illustrate the functional and structural principles of the present invention and is not intended to be limiting. To the contrary, the present invention is intended to encompass all modifications, alterations, substitutions, additions, and equivalents within the spirit and scope of the appended claims.
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|U.S. Classification||455/569.1, 381/122, 381/111, 381/107, 455/575.6, 455/575.2, 455/575.1, 455/570, 381/390, 381/74, 455/575.3, 455/575.4, 381/370, 381/104|
|International Classification||H04B1/00, H04M1/60, H04M1/05, H04B1/38|
|Cooperative Classification||H04M1/05, H04M1/6008, H04B1/385, H04M1/6066|
|May 28, 2004||AS||Assignment|
Owner name: FELLOWES, INC., ILLINOIS
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:BODLEY, MARTIN REED;REEL/FRAME:015393/0088
Effective date: 20040514
Owner name: FELLOWES, INC., ILLINOIS
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:MAESTRO INC.;REEL/FRAME:015393/0112
Effective date: 20040514
|Mar 11, 2008||AS||Assignment|
Owner name: JOBY, INC., CALIFORNIA
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:FELLOWES, INC.;REEL/FRAME:020627/0598
Effective date: 20080310
|Jun 5, 2008||AS||Assignment|
Owner name: JOBY COMMUNICATIONS, LLC, CALIFORNIA
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:JOBY, INC.;REEL/FRAME:021050/0476
Effective date: 20080605
|Mar 15, 2010||REMI||Maintenance fee reminder mailed|
|Aug 8, 2010||LAPS||Lapse for failure to pay maintenance fees|
|Sep 28, 2010||FP||Expired due to failure to pay maintenance fee|
Effective date: 20100808